Bogdan Sirbu scite author profile

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Design and simulation of an equiangular spiral antenna for extremely high-frequencies

Sirbu

Tekin

Pouhè

2014

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This paper presents the design and simulation processes of an Equiangular Spiral Antenna for the extremely high frequencies between 65 GHz and 170 GHz. A new approach for the analysis of the antenna's electrical parameters is described. This approach is based on formalism proposed by Rumsey to determine the EM field produced by an equiangular spiral antenna. Analytical expressions of the electrical parameters such as the gain or the directivity are then calculated using well sustained mathematical approximations. The comparison of obtained results with those from numerical integration methods shows a good agreement

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Electro-optical circuit board with single-mode glass waveguide optical interconnects

Brusberg

Neitz

Pernthaler

et al. 2016

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A glass optical waveguide process has been developed for fabrication of electro-optical circuit boards (EOCB). Very thin glass panels with planar integrated single-mode waveguides can be embedded as a core layer in printed circuit boards for high-speed board-level chip-to-chip and board-to-board optical interconnects over an optical backplane. Such singlemode EOCBs will be needed in upcoming high performance computers and data storage network environments in case single-mode operating silicon photonic ICs generate high-bandwidth signals [1]. The paper will describe some project results of the ongoing PhoxTroT project, in which a development of glass based single-mode on-board and board-to-board interconnection platform is successfully in progress. The optical design comprises a 500 μm thin glass panel (Schott D263Teco) with purely optical layers for single-mode glass waveguides. The board size is accommodated to the mask size limitations of the fabrication (200 mm wafer level process, being later transferred also to larger panel size). Our concept consists of directly assembling of silicon photonic ICs on cut-out areas in glass-based optical waveguide panels. A part of the electrical wiring is patterned by thin film technology directly on the glass wafer surface. A coupling element will be assembled on bottom side of the glass-based waveguide panel for 3D coupling between board-level glass waveguides and chip-level silicon waveguides. The laminate has a defined window for direct glass access for assembling of the photonic integrated circuit chip and optical coupling element. The paper describes the design, fabrication and characterization of glass-based electro-optical circuit board with format of (228 x 305) mm2

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Packaging and Test of Photonic Integrated Circuits (PICs)

Bernabé

Tekin

Sirbu

et al. 2023

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Bogdan Sirbu

Alignment tolerant, low voltage, 023 Vcm, push-pull silicon photonic switches based on a vertical pn junction

An end-to-end 5G automotive ecosystem for autonomous driving vehicles

Design and simulation of an equiangular spiral antenna for extremely high-frequencies

Electro-optical circuit board with single-mode glass waveguide optical interconnects

Packaging and Test of Photonic Integrated Circuits (PICs)

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